Your search keyword '"Schmucker DL"' showing total 3 results

1. Does aging affect liver microtubules?

Author

Taylor L, Jones AL, and Schmucker DL

Subjects

Animals, Male, Microtubule-Associated Proteins analysis, Rats, Rats, Inbred F344, Tubulin analysis, Aging physiology, Liver metabolism, Microtubules physiology

Abstract

Microtubules are essential for many cell processes, e.g., ligand-receptor endocytosis and the vectorial movement of endosomes. The cytoskeleton, particularly microtubules, may undergo age-related changes that are reflected in cell dysfunctions. For example, the translocation of 125I-IgA-containing vesicles from the sinusoidal surface to the pericanalicular cytoplasm is reduced (greater than 40%) in old versus young rats. Electron microscopic analysis demonstrated that the concentration of microtubule profiles in young animals is within 10-20% of that in old rats. The relative concentration of polymerized tubulin declines greater than 70% by 12 months of age, but the total tubulin content remains unchanged until later, i.e., declining 50% by 24 months. Concomitant increases occur in the free fractions of microtubule-associated proteins (MAP), i.e., MAP1 and heat-stable MAPS. These fractions are not associated with polymerized tubulin. The declines in total and polymerized tubulin, together with the increases in the MAPS' free fractions, may be indicative of fewer and/or shorter microtubules. These data lend credence to the supposition that aging is accompanied by perturbations of microtubule functions that ultimately are expressed as biomarkers characteristic of aging.

Published

1992

2. Asialoorosomucoid hepatobiliary transport is unaltered by the loss of liver asialoglycoprotein receptors in aged rats.

Author

Daniels CK, Smith KM, and Schmucker DL

Subjects

Animals, Asialoglycoprotein Receptor, Calcium metabolism, Male, Orosomucoid metabolism, Rats, Rats, Inbred F344, Aging, Asialoglycoproteins, Biliary Tract metabolism, Liver metabolism, Orosomucoid analogs & derivatives, Receptors, Immunologic metabolism

Abstract

The hepatobiliary transport of asialoorosomucoid (ASOR) was examined in aging male Fischer 344 rats. The time course of transport of 125I-ASOR from blood to bile was identical in both senescent and young adult rats. Peak secretion occurred at approximately 35 minutes after injection via the femoral vein. Total secretion of radiolabeled ASOR (3.6% of injected dose), bile secretion and rate of secretion of radiolabeled ligand (approximately 2% of administered dose/hr/gm bile/liver) were not significantly different for the two age groups. Determination of the binding capacity for 125I-ASOR with liver plasma membrane-enriched preparations showed the membranes from old animals capable of binding approximately 50% less radiolabeled ligand as the young adult animals. Analysis of the distribution of 125I-ASOR autoradiographic grains along the liver lobule indicated extensive uptake of ligand in Zone 2 and 3 cells in senescent animals, whereas uptake in young rats was essentially limited to Zone 1 parenchymal cells. These results indicate that, contrary to the age-related loss of hepatic receptors for dimeric IgA and the concomitant reduction in hepatobiliary secretion of IgA, loss of ASOR binding capacity on liver plasma membranes from old animals is not reflected in diminished hepatobiliary secretion of ASOR. The loss of ASOR binding capacity is offset by the recruitment of Zone 2 and 3 hepatocytes along the liver lobule. This result suggests that hepatic metabolism and hepatobiliary secretion of macromolecules which exhibit a lobular gradient of uptake (e.g. ASOR) will be relatively less affected by loss of receptors compared to ligands which do not display such a gradient (e.g. IgA).

Published

1987

3. Age-related changes in liver drug metabolism: structure vs function.

Author

Schmucker DL and Wang RK

Subjects

Age Factors, Animals, Endoplasmic Reticulum ultrastructure, Liver cytology, Male, Microsomes, Liver enzymology, Rats, Aging, Liver metabolism, Pharmaceutical Preparations metabolism

Published

1980